CITAS EXTERNAS POR ARTÍCULOS
Transcrição
CITAS EXTERNAS POR ARTÍCULOS
CITAS EXTERNAS POR ARTÍCULOS: F. Hernández-Olivares, G. Barluenga, M. Bollati, B. Witoszek; Static and dynamic behaviour of recycled tyre rubber-filled concrete, Cement and Concrete Research, Volume 32, Issue 10, October 2002, Pages 1587-1596. 1. Siddique, R. y Naik, T. R.; Properties of concrete containing scrap-tire rubber an overview, Waste Management, 24 (2004) 563–569. 2. Segre, N., Joekes, I., Galves, A. D., Rodrigues, J. A.; Rubber-mortar composites: Effect of composition on properties, Journal of Materials Science, 39 (2004) 3319-3327. 3. Li, G., Stubblefield, M. A., Garrick, G., Eggers, J., Abadie, C., Huang, B.; Development of waste tire modified concrete, Cement and Concrete Research, 34 (2004) 2283-2289. 4. Güneyisi, E., Gesoglu, M. and Özturan, T.; Properties of rubberized concretes containing silica fume, Cement and Concrete Research, 34 (2004) 2309-2317. 5. Dos Santos, A. C.; Avaliação do comportamento do concreto com adição de borracha obtida a partir da reciclagem de pneus com aplicação em placas prémoldadas, MS Thesis, Universidade Federal de Alagoas, mayo 2005 6. Marques, A. C.; Estudo da influência da adição de borracha vulcanizada em concreto à temperatura ambiente e elevada temperatura, MS Thesis, Universidade Estatal Paulista, Agosto 2005 (en portugués). 7. Huang, B, Shu, X, Li, G; Laboratory investigation of portland cement concrete containing recycled asphalt pavements, Cement and Concrete Research, 35 (2005) 2008-2013. 8. Kaloush KE, Way GB, Zhu H; Properties of crumb rubber concrete, Transportation Research Record 1914: (2005) 8-14 9. Li, Y.; Lee, J. S.; Xi, Y.-P.; Study on sulphur rubber concrete, Journal of Building Materials 8 (4) (2005) 368-372. 10. Bignozzi, M.C., Sandrolini, F.; Tyre rubber waste recycling in self-compacting concrete, Cement and Concrete Research, 36 (2006) 735-739. 11. Huang B, Shu X, Burdette EG; Mechanical properties of concrete containing recycled asphalt pavements, Magazine Of Concrete Research 58 (5): (2006) 313-320 12. Papakonstantinou C G, Tobolski, M J; Use of waste tire steel beads in Portland cement concrete, Cement and Concrete Research, 36 (2006), 1686-1691. 13. Colom, X., Cañavate, J, Carrillo, F, Velasco, J.I., Pagès, P, Mujal, R. Nogués, F.; Structural and mechanical studies on modified reused tyres composites, European Polymer Journal, 42 (2006), 2369-2378. 14. Zhang YM, Chen SX, Chen B, Sun, W.; Dry shrinkage, frost resistance and permeability of rubber included concrete; Key Engineering Materials 302-303: (2006) 120-124. 15. Zhu H; On building crumb rubber concrete test sites, Key Engineering Materials 302-303 (2006) 411-417. 16. Segre, N Ostertag, C, Monteiro, PJM; Effect of Tire Rubber Particles on Crack Propagation in Cement Paste, Materials Research, 9 (2006) 311-320, 17. Segre, N., Galves, A.D., Rodrigues, J.A., Joekes, I.; Tire rubber-cement composites: Effect of slag on properties [Compósites de cimento - Borracha de pneus: Efeito da escória nas propriedades], Ceramica 52 (2006), pp. 283-292 18. Betini, M.; Utilização de resíduos de cinza de casca de arroz e borracha de pneus em concreto de alto desempenho, MS Thesis, Universidade Estatal Paulista, Agosto 2006 (en portugués). 19. Colom, X., Carrillo F., Cañavate, J.; Composites reinforced with reused tyres: Surface oxidant treatment to improve the interfacial compatibility, Composites Part A: Applied Science and Manufacturing, 38 (2007) 44-50. 20. Chou LH, Lu CK, Chang JR, Lee, TM; Use of waste rubber as concrete additive, Waste Management & Research 25 (1) (2007) 68-76 21. Gunasekaran, S., Natarajan R.K., Kala, A.; FTIR spectra and mechanical strength analysis of some selected rubber derivatives, Spectrochimica Acta Part A 68 (2) (2007) 323–330 22. Akbulut, S., Arasan, S. and Kankan, E.; Modification of clayey soils using scrap tire rubber and synthetic fibers, Applied Clay Science 38 (1-2) (2007) 23–32 23. Gesoglu, M., Güneyisi, E.; Strength development and chloride penetration in rubberized concretes with and without silica fume, Materials and Structures, 40 (9) (2007), 953-964 24. Skripkiūnas, G., Grinys, A. Černius, B.; Deformation Properties of Concrete with Rubber Waste Additives; Materials Science (ISSN 1392–1320), 13 (3) (2007), 219-223 25. Batayneh, M. K., Marie, I., Asi, I.; Promoting the use of crumb rubber concrete in developing countries, Waste Management xxx (2007) xxx–xxx 26. Balaha MM, Badawy AAM, Hashish M; Effect of using ground waste tire rubber as fine aggregate on the behaviour of concrete mixes, Indian Journal Of Engineering And Materials Sciences 14 (6) (2007) 427-435 27. L. Zheng, X. Sharon Huo and Y. Yuan; Experimental investigation on dynamic properties of rubberized concrete, Construction and Building Materials 22 (5) (2008) 939–947. 28. Khaloo, AR; Dehestani, M and Rahmatabadi, P.; Mechanical properties of concrete containing a high volume of tire–rubber particles, Waste Management xxx (2008) xxx–xxx G. Barluenga, F. Hernández-Olivares and y. R. T. León, Seismic response of a new design for vertical joints in architectural panels, Engineering Structures, Volume 25, Issue 13, November 2003, Pages 1655-1664 F. Hernández-Olivares, G. Barluenga, Fire performance of recycled rubber-filled high-strength concrete, Cement and Concrete Research, Volume 34, Issue 1, January 2004, Pages 109-117 1. França, V. E.; Aderência AÇo-Concreto – Uma análise do comportamento do concreto fabricado com resíduos de borracha, MS Thesis, Universidade Estatal Paulista, Agosto 2004 (en portugués). 2. Marques, A. C.; Estudo da influência da adição de borracha vulcanizada em concreto à temperatura ambiente e elevada temperatura, MS Thesis, Universidade Estatal Paulista, Agosto 2005 (en portugués). 3. Martins, I.R.F.; Concreto de Alto Desempenho com Adição de Resíduos de Borracha de Pneu, MS Thesis, Universidade Estatal Paulista, Agosto 2005 (en portugués). 4. Garrick, G. M.; Analysis and testing of waste tire fiber modified concrete, MS Thesis, Louisiana State University, may 2005. 5. Dos Santos, A. C.; Avaliação do comportamento do concreto com adição de borracha obtida a partir da reciclagem de pneus com aplicação em placas prémoldadas, MS Thesis, Universidade Federal de Alagoas, mayo 2005 6. Botero, J. H., Valentín, M O., Suárez, O. M, Santos, J. Acosta, F J., Cáceres, A, Pando M A.; Gomas trituradas: estado del arte, situación actual y posibles usos como materia prima en Puerto Rico, Rev. Int. de Desastres Naturales, Accidentes e Infraestructura Civil. 5(1) (2005) 69-86. 7. Zhang, Ya-Mei; Chen, Sheng-Xia; Gao, Yue-Yi; Study on properties of rubber included cement concrete under wet-dry cycling, Journal of Building Materials 8 (6) (2005) 665-671 8. Papakonstantinou C G, Tobolski, M J; Use of waste tire steel beads in Portland cement concrete, Cement and Concrete Research, 36 (2006), 1686-1691. 9. Zhang YM, Chen SX, Chen B, Sun, W.; Dry shrinkage, frost resistance and permeability of rubber included concrete; Key Engineering Materials 302-303: (2006) 120-124. 10. Betini, M.; Utilização de resíduos de cinza de casca de arroz e borracha de pneus em concreto de alto desempenho, MS Thesis, Universidade Estatal Paulista, Agosto 2006 (en portugués). 11. Chou LH, Lu CK, Chang JR, Lee, TM; Use of waste rubber as concrete additive, Waste Management & Research 25 (1) (2007) 68-76 12. Xiao, J., Zhang, C.; Fire damage and residual strengths of recycled aggregate concrete, Key Engineering Materials 348-349 (2007) 937-940. 13. Gesoglu, M., Güneyisi, E.; Strength development and chloride penetration in rubberized concretes with and without silica fume, Materials and Structures, 40 (9) (2007), 953-964 14. Liu, C. T.; Highly flowable reactive powder mortar as a novel repair construction material, Ph D Thesis, National Cheng Kung University, China (2007). 15. Batayneh, M. K., Marie, I., Asi, I.; Promoting the use of crumb rubber concrete in developing countries, Waste Management xxx (2007) xxx–xxx 16. Agostini, F; Inertage et valorisation des sédiments de dragage marins, Ph D Thesis, L’Ecole Centrale de Lille, Université des Sciences et Techniques de Lille, France (2007) (en francés). 17. Li G., Muthyala, V. D.; A cement based syntactic foam, Materials Science and Engineering A 478 (1-2) (2007) 77–86 G. Barluenga, F. Hernández-Olivares, SBR latex modified mortar rheology and mechanical behaviour, Cement and Concrete Research, Volume 34, Issue 3, March 2004, Pages 527-535. 1. Raupp-Pereira, F.; Valorização de resíduos industriais como fonte alternativa mineral : composições cerâmicas e cimentíceas, PhD Thesis, Universidade de Aveiro, (2006) 2. Raupp-Pereira, F., Silva, L., Segadães, A.M., Hotza, D. Labrincha J.A.; Potable water filtration sludge: Use as set retarder in one-coat plastering mortars, Construction and Building Materials 21 (2007) 646-653. 3. Raupp-Pereira, F., Silva, L., Segadães, A.M., Paiva, H. Labrincha J.A.; Effects of potable water filtration sludge on the rheological behaviour of one-coat plastering mortars , Journal of Materials Processing Technology 190 (2007) 12– 17. 4. Zengzhi Sun, Z, Xu, Q; Micromechanical analysis of polyacrylamide-modified concrete for improving strengths, Materials Science and Engineering A xxx (2008) xxx–xxx F. Hernández-Olivares, G. Barluenga, B. Parga-Landa, M. Bollati, B. Witoszek; Fatigue behaviour of recycled tyre rubber-filled concrete and its implications in the design of rigid pavements, Construction and Building Materials, Volume 21, Issue 10, October 2007, Pages 1918-1927. 1. Gesoglu, M., Güneyisi, E.; Strength development and chloride penetration in rubberized concretes with and without silica fume, Materials and Structures, 40 (9) (2007), 953-964 G. Barluenga, F. Hernández-Olivares, Cracking control of concretes modified with short AR-glass fibers at early age. Experimental results on standard concrete and SCC, Cement and Concrete Research, 37 (12) (2007), 1624-1638.